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I want to get the vertex descriptor with the composant of the vertex, like this :

struct WayPoint{
std::pair<float, float> pos; // with this composant

the adjency list :

typedef boost::adjacency_list<  
> WayPointGraph;
typedef WayPointGraph::vertex_descriptor WayPointID;
typedef WayPointGraph::edge_descriptor   WayPointConnectionID;

I built my graph and created all the vertices / edges .... the aim is to apply an astar on the graph.

void PathFinding::findMeAPath(std::pair<float, float>begin, std::pair<float, float>end)
    std::vector<WayPointID> p(boost::num_vertices(graphe)); 
    std::vector<float>      d(boost::num_vertices(graphe)); 
    WayPointID start = // I want to find the WayPointID with begin
    WayPointID goal = //same with end;
    try {
        boost::astar_heuristic<WayPointGraph, float>(), 
        boost::predecessor_map(&p[0]).distance_map(&d[0]).visitor(astar_goal_visitor(goal)).weight_map(boost::get(&WayPointConnection::dist, graphe))

    } catch(found_goal fg) { 

    for(WayPointID v = goal;; v = p[v]) {
        if(p[v] == v)
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First, d should use num_edges, not num_vertices. Second, what is the actual question? –  Michael Simbirsky Jan 16 '14 at 4:18

1 Answer 1

up vote 1 down vote accepted

You need to write a function to find a vertex given a position. The graph type that you have defined uses std::vector to store vertices, so the function will have to iterate through it and compare the queried position to each WayPoint. Something like this could do:

std::pair<WayPointID, bool> find_vertex(const WayPoint& wp, const WayPointGraph& graph)
  for (WayPointID id = 0; id < boost::num_vertices(graph); ++id)
    if (equal(graph[id], wp))
      return std::make_pair(id, true);
  return std::make_pair(0, false);

Note that the function returns a pair (Id + boolean flag) to indicate whether the search succeeded or not, so you would use it as follows:

bool vertex_found;
WayPointID start;
std::tie (start, vertex_found) = find_vertex(begin, graphe);
if (!vertex_found)
  // do something about it

Also the function uses the following to compare positions:

bool equal(const std::pair<float, float>& p1, const std::pair<float, float>& p2)
  const float EPS = 1e-6;
  return (std::fabs(p1.first - p2.first) < EPS &&
          std::fabs(p1.second - p2.second) < EPS);
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